Development of high-molar-mass cellobiase complex by spontaneous protein-protein interaction in the culture filtrate ofTermitomyces clypeatus

The 450 kDa cellobiase fromTermitomyces clypeatus which migrates as a single band on IEF, PAGE and SDS-PAGE, was found to possess appreciable sucrase activity. The fungus produced sucrase and cellobiase constitutively in different media but with different activity ratios. The kinetics of secretion of the two enzymes was similar underin vivo andin vitro conditions. HPGPLC analysis of the culture filtrates indicated the presence of both sucrase and cellobiase in the same protein fractions of different molar mass, even in the 30-kDa protein fraction. No free sucrase or cellobiase could be detected in the culture filtrates. It was also observed that fractionation of cellobiase by (NH₄)₂SO₄ precipitation was different with different amounts of associated sucrase activity present in the culture filtrate. The (NH₄)₂SO₄-precipitated cellobiase fraction also contained cellobiases in proteins of widely varied molar mass ranges. However, none of the low-molar mass proteins other than the 450-kDa enzyme could be purified, as all low-molar-mass fractions spontaneously aggregated to the 450-kDa enzyme. Hydrophobic chromatography of the (NH₄)₂SO₄-precipitated fractions followed by HPGPLC of the eluted active fraction yielded both cellobiase-free sucrase and a very low sucrase-containing cellobiase fraction. The cellobiase fraction, homogeneous in PAGE, was also a high-molar-mass protein complex dissociating into a number of protein bands on SDS-PAGE. It was suggested that the 450-kDa cellobiase was not liberated by the fungus as a preformed enzyme complex but that the complex developed through interaction of cellobiase with sucrase underin vitro conditions and the possibility of the involvement of other proteins in the aggregation cannot be excluded.